RU2675302C1 - Modular pneumatic and mechanical seed dressing machine - Google Patents

Abstract

FIELD: agriculture; machine building.SUBSTANCE: invention relates to agricultural engineering, in particular to machines for dressing agricultural crops seed. Device includes a split cylindrical body and dressing chamber (6). Inside the housing and chamber (6), there is a detachable transporting working body in the form of screw (7), loading (8) and unloading (9) trays, tank for working fluid (13), metering pump (14), air fan (11) with a device for heating air (12), drive (10) of the transporting working body, aspiration pipe (24) mounted inside unloading tray (9), as well as sprays (18). Sprays (18) are installed on the upper hatch of dressing chamber (6), in which the installation sites of sprays (18) are made concave to the outside. Dressing chamber (6) is installed in the connector of the cylindrical body and is additionally equipped with a lower hatch (16) having rectangular-shaped openings (20). Grids and confusers (22) are installed in the holes in the lower hatch. Distance between the centers of holes (20) of lower hatch (16) and between the centers of sprays (18) along the axis of screw (7) is equal to the double pitch of screw (7) flight. Centers of sprays (18) are offset relative to the centers of holes (20) of lower hatch (16) upward along the axis of screw (7) by a distance equal to the size of one step of screw (7) auger. Confusers (22) are set relative to the axis of screw (7) at an angle ϕ, whose value is determined by the formula ϕ=90-ϕ, where ϕ– the angle of elevation of the screw line of screw (7).EFFECT: reduction of the energy intensity of the process of pre-sowing preparation of seeds of agricultural crops is ensured by combining the operations of seed dressing and loading, full uniform dressing of seed material and increasing the effectiveness of the use of biological preparations for seed dressing.1 cl, 4 dwg

Description

The invention relates to agricultural machinery, in particular to machines for dressing seeds of agricultural crops.

A known seed dresser, [1] comprising a seed hopper with a dispenser, a transporting working element mounted in a casing, made in the form of a flexible spiral screw, a sprayer, a dispenser and a transporting working body drive, made with an adjustable speed, the casing is equipped with a mechanism for adjusting its angle of inclination, including a hinge and an adjusting screw, in the lower half of the casing in its upper part there is a window closed with an air-tight cover concave outward, a spray gun is installed inside the cover, enny a centrifugal nozzle, and the upper end of the housing is provided with unloading window.

The disadvantages of the known dresser include manual labor when loading the hopper with grain, not being suitable for working with biological plant protection products.

There is also known a device for loading and dressing grain [2], which includes two transporting working bodies mounted in circular casings attached to the frame from above, and two in the lower part of the device connected coaxially with different directions of winding, made in the form of flexible spiral screws, atomizers, a dispenser and a common drive of transporting working bodies, made with an adjustable speed. In the lower parts of the casings there are windows closed with outwardly concave covers, inside of which there are mounted atomizers made in the form of centrifugal nozzles. The upper ends of the casings are provided with discharge windows. The upper transporting working bodies are installed in parallel in one plane. The lower spiral screws are installed in an open casing having a semicircle in cross section, and the two upper spiral screws with their lower parts are made protruding beyond the outer edges of the casing and are equipped with protective grilles. Moreover, each working body is fixed on one side to a metal cylinder, which, through a bolted connection, through a radial hole in it, is mounted on its drive shaft. Sprayers are installed on top of the axis of the working bodies, and the drive of the working bodies is made common.

The disadvantages of the known device for loading and dressing of grain are the complexity of the design and the inability to work with biological plant protection products.

A pneumomechanical type seed dresser [3] is also known, which includes a seed hopper with a dispenser, the outlet of which is adjustable, and a seed dressing chamber. The treater is equipped with a throw fan with a blade wheel connected to the dispenser. The seed dressing chamber is equipped with high pressure nebulizers directed towards the seed flow. The etching chamber has a channel for suctioning the residual amount of the mixture of air and the working fluid for use in a closed cycle using a throw fan. The dressing chamber has a fixed screw working element installed in it, which excludes the use of mechanical unloading devices and a lock gate for unloading seeds into containers.

The disadvantage of this seed dresser is that the high speed of the seeds under the influence of the air flow created by the throw fan leads to increased injury to the seeds. For loading seeds into the hopper, additional time and energy are required, and the simultaneous loading of the pickled seeds into the vehicle is not provided. In addition, the treater is not suitable for working with biological plant protection products.

The prototype is a method of presowing treatment of seeds and a device for its implementation [4] comprising feeding the seeds into the treatment chamber, in which the seed dressing particles are applied to the seeds. After that, the seeds are mixed with these particles to obtain pickled seeds and their subsequent transportation to the discharge pipe by means of a screw with turns. A seed treatment device comprises a treatment chamber, a loading hopper for feeding seeds and an unloading nozzle connected to it, a screw with turns located inside the processing chamber for mixing the seeds and transporting them to the unloading nozzle, and an oscillation stimulator in the form of a cam shaft mounted outside under the chamber processing coaxially with it.

The disadvantage of the prototype is that the dressing occurs by mixing the seeds with a screw, which does not allow to fully apply the drug with a minimum flow rate and to ensure uniform dressing of the seeds. A common disadvantage of the known analogues and prototype is their inability to work with biological plant protection products.

The essence of the invention is as follows.

EFFECT: reduced energy intensity of the process of pre-sowing preparation of seeds of agricultural crops, ensuring the completeness of dressing and increasing the efficiency of the use of biological preparations for dressing seeds.

This is achieved by the fact that in a modular pneumomechanical seed dresser, including a detachable cylindrical body and a dressing chamber, inside of which there is a detachable transporting working body in the form of a screw, loading and unloading trays, a tank for working fluid, a metering pump, an air fan with a heating device air, a drive of the transporting working body, an aspiration pipe mounted inside the discharge chute, as well as spray guns mounted on the top hatch of the pickling chamber In which the nozzle installation points are concave outward, the pickling chamber is installed in the connector of the cylindrical body and is additionally equipped with a bottom hatch having rectangular openings in which grilles and confusers are installed, the distance between the centers of the openings of the lower hatch and between the centers of the sprayers along the screw axis equal to the double pitch of the screw of the screw, while the centers of the nozzles are displaced relative to the centers of the holes of the lower hatch up the axis of the screw by a distance equal to the size of one step Single screw, moreover confusers mounted relative to the screw axis by an angle φ, the value of which is determined by the formula φ = 90 _1-φ where φ ₁ - helical lead angle of the screw line.

The modular pneumomechanical seed dresser is illustrated by the schemes:

FIG. 1 is a diagram of a modular pneumomechanical seed dresser, side view;

FIG. 2 is a diagram of the top hatch of the etching chamber, view A in FIG. one;

FIG. 3 is a diagram of the lower hatch of the etching chamber, view B in FIG. one;

FIG. 4 is a diagram of an aspiration pipe, view B in FIG. one.

The modular pneumomechanical seed dresser (Fig. 1) consists of a detachable cylindrical body, divided into the lower part 1 and upper part 2, which are attached to the frame of the seed cleaning machine 5 using rods 3 and 4, into the connector of the cylindrical body, between the upper and lower parts, mounted pickling chamber 6, having the same cylindrical shape with the housing. A detachable transporting working element in the form of a screw 7 is installed inside the housing and the pickling chamber, which consists of three parts equal in length to the length of the lower part of the housing 1, length of the etching chamber 6 and the length of the upper part of the housing 2. The lower part of the housing 1 is equipped with a loading tray 8 and at the end of the upper part of the casing 2 there is an unloading chute 9 and a drive of the transporting working member 10. An air fan 11 is mounted on the upper part of the casing 2, which is equipped with a device for heating air 12. Ba to the working fluid 13 and the metering pump 14 are attached to the frame of the seed cleaning machine 5. The pickling chamber 6 is equipped with an upper 15 (Fig. 2) and lower 16 (Fig. 3) hatches that are closed by latches 17. On the upper hatch 15 (Fig. 2) sprayers of the working fluid 18 are installed, which are connected via pipelines 19 to the metering pump 14 and the tank for the working fluid 13. At the same time, the installation sites of the sprayers 18 on the upper hatch 15 are made concave outward. The lower hatch 16 (Fig. 3) is equipped with rectangular openings 20 in which grilles 21 are installed and confusers 22 are mounted on the outside. The distance between the centers of the holes 20 of the lower hatch 16 and between the centers of the nozzles 18 along the axis of the screw 7 is equal to the double pitch of the screw of the screw, while the centers of the nozzles 18 are offset relative to the centers of the holes 20 of the lower hatch 16 up the axis of the screw 7 by a distance equal to the value of one step of the turn of the screw. In addition, the confusers 22 are installed relative to the axis of the screw 7 at an angle ϕ, the value of which is determined by the formula ϕ = 90-ϕ ₁ , where ϕ ₁ is the angle of elevation of the screw line of the screw. The confusers 22 are connected to the air fan 11 by means of air ducts 23. Inside the discharge chute 9, an aspiration pipe 24 is mounted (Fig. 4), which is connected to the air fan 11 using an air return pipe 25. An adjustable valve 26 is installed at the end of the discharge chute 9.

Modular pneumomechanical seed dresser works as follows.

Seed material from the seed cleaning machine 5 is discharged into the loading tray 8 and, with the help of a screw 7 driven by the drive 10, is fed into the pickling chamber 6. The fan 11, through the air heater 12 and the air duct 23, supplies warm air flow to the confusers 22 and then through openings 20 s gratings 21 into the dressing chamber 6. The warm air stream coming through the openings 20 raises the seeds and ensures their mixing. The speed of the air flow is regulated by the air fan 11 so as to give the seeds inside the dressing chamber 6 a speed of rotation, thereby creating a fluidized stream of seeds. In response to the flow of seeds through the nozzles 18, the working fluid is sprayed under pressure from the tank 13 using the metering pump 14. At the same time, the sprayed working fluid is applied to the seed surface and moved in the direction of rotation of the screw.

The feed into the pickling chamber 6 through the openings 20 of the warm air stream simultaneously provides heating of the seeds and atomized working fluid. Due to the fact that the seeds are in a fluidized state and are constantly mixed in the dressing chamber 6, an increase in the degree of uniformity of the application of the working fluid on the surface of the seeds is provided. In addition, the heating of the working fluid with a warm air stream helps to activate the biological agent of the biological product used for pickling, which improves its efficiency.

The installation of confusers 22 at an angle ϕ relative to the axis of the screw 7, the value of which is determined by the formula ϕ = 90-ϕ ₁ , where ϕ ₁ is the angle of elevation of the screw line of the screw, provides a warm air flow into the pickling chamber in the direction parallel to the turns of the screw. This will contribute to a uniform distribution of seed in the inter-turn space of the screw, as well as less damage to the seeds by reducing impacts on the turns of the screw.

The location of the holes of the lower hatch 20 and the nozzles of the working fluid 18 so that the distance between the centers of the holes of the lower hatch 20 and between the centers of the nozzles 18 along the axis of the screw 7 is equal to the double pitch of the screw of the screw, and the centers of the nozzles 18 are offset relative to the centers of the holes of the lower hatch 20 up the axis of the screw 7 at a distance equal to the value of one step of the screw auger, reduces the counteraction of the pressure of the air flow of the sprayed working fluid and the complete seed dressing in the process of their reverse fall under the action of force gravity at the next turn of the auger with further movement along the pickling chamber.

Further, the etched seeds pass through the upper part of the housing 2. Moreover, they are additionally etched by mixing when moving with the screw 7 and are discharged through the unloading chute 9 and the adjustable valve 26. The remaining sprayed working fluid that got with the unloaded seed material into the unloading chute 9 is pulled out using the suction pipe 24, the vacuum in which is created by the fan 11, and through the return air supply pipe 25 are fed through the confusers 22 into the pickling chamber 6. An adjustable valve 26 installed on and unloading tray 9, when unloading, opens under the influence of gravity of the seeds, and in the absence of seeds it automatically closes. This ensures that the etching cycle is closed, saving the working fluid and the environmental safety of the process.

The upper 15 and lower 16 hatches of the etching chamber 6, closed by latches 16, facilitate the necessary maintenance of the etching chamber 6, nozzles 18, confusers 22, their cleaning and, if necessary, replacement.

Depending on the physicomechanical properties of the seeds and the rate of flow of the working fluid, the pressure and flow rate of air, as well as the pressure and flow rate of the working fluid can be changed by installing different types of sprayers 18 and confusers 22, or by adjusting the metering pump 14 and air fan 11 .

The modular design of the pneumomechanical seed dresser allows you to embed it in the processing line for cleaning and loading the seeds and after finishing the preparation of the seeds for sowing, dismantle the dressing chamber 6 with a part of the screw 7 inside it from the housing and use it as a simple transfer screw.

Thus, such a design of a modular pneumomechanical seed dresser provides a reduction in the energy intensity of the pre-sowing treatment of seeds of crops by combining the operations of dressing and loading of seeds, complete uniform dressing of seed material and increasing the efficiency of the use of biological preparations for seed dressing.

The invention was created with the financial support of the Russian Ministry of Education and Science in the framework of the Federal Target Program “Research and Development in Priority Directions for the Development of the Russian Science and Technology Complex for 2014-2020” under agreement No. 14.610.21.0017 of October 3, 2017, a unique project identifier RFMEFI61017X0017.

List of used literature.

1. RF patent No. 96453, IPC A01C 1/08. Seed Treater / V.I. Kurdyumov. - Declared. 2010106455/22, 02.24.2010; publ. 08/10/2010, Bull. Number 22.

2. RF patent №131562, IPC А01С 1/00. Device for loading and dressing grain / Yu.M. Isaev, N.M. Semashkin, V.A. Zlobin, A.V. Pischaskin. - Declared. 2013110200/13, 03/06/2013; publ. 08/27/2013, Bull. Number 24.

3. RF patent No. 2380876, IPC А01С 1/00. Seed dresser pneumomechanical type / E.G. Nurullin, A.V. Dmitriev, D.T. Khaliullin et al. - Decl. 2008126363/13, 06/27/2008; publ. 02/10/2010, bull. Number 4.

4. RF patent No. 2618106, IPC A01C 1/00. The method of presowing seed treatment and device for its implementation / M.V. Sukhanova, A.V. Sukhanov, S.V. Malinovsky, declared 2016101318, 01/19/2016, publ. 05/02/2017 bull. No. 13.

Claims (1)

A modular pneumomechanical seed dresser, including a detachable cylindrical body and dressing chamber, inside of which a detachable transporting working body in the form of a screw, loading and unloading trays, a tank for working fluid, a metering pump, an air fan with a device for heating the air, a drive of the transporting working body are installed , an aspiration pipe mounted inside the discharge chute, as well as spray guns mounted on the top hatch of the pickling chamber, where The nozzles of the nozzles are made concave outward, characterized in that the etching chamber is installed in the connector of the cylindrical body and is additionally equipped with a lower hatch having rectangular openings in which grilles and confusers are installed, and the distance between the centers of the holes of the lower hatch and between the centers of the nozzles along the screw axis is a double step of the screw of the screw, while the centers of the nozzles are displaced relative to the centers of the holes of the lower hatch up the axis of the screw by a distance equal to the value of one step of the turn Nek furthermore confusers mounted relative to the screw axis at an angle φ, the value of which is determined by the formula φ = 90 _1-φ where φ ₁ - helical lead angle of the screw line.

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